Volunteers Across Nation to Track Climate Clues in Spring Flowers

Feb 14, 2008

Cinquefoil wildflowers in Colorado will be monitored by participants of Project BudBurst. Credit: Carlye Calvin, UCAR

A nationwide initiative starting this week will enable volunteers to track climate change by observing the timing of flowers and foliage. Project BudBurst, operated by the University Corporation for Atmospheric Research (UCAR) and a team of partners, allows students, gardeners and other citizen scientists in every state to enter their observations into an online database that will give researchers a detailed picture of our warming climate.

The project, which will be launched tomorrow, will operate year round so that early- and late-blooming species in different parts of the country can be monitored throughout their life cycles. Project BudBurst builds on a pilot program carried out last spring, when several thousand participants recorded the timing of the leafing and flowering of hundreds of plant species in 26 states.

The Chicago Botanic Garden and University of Montana are collaborators on Project BudBurst, which was funded with a grant from the U.S. Bureau of Land Management and the National Fish and Wildlife Foundation. The project is also supported by the National Science Foundation (NSF) and Windows to the Universe, a UCAR-based Web site that will host the project online as part of its citizen science efforts.

"As we track the effects of climate change, it's important that we include information obtained by 'citizen scientists,'" said Elizabeth Blood, program director in NSF's Division of Biological Infrastructure. "Project BudBurst will further our understanding of how the biosphere is changing, by bringing local knowledge into our observations."

"Climate change may be affecting our backyards and communities in ways that we don't even notice," says project coordinator Sandra Henderson of UCAR's Office of Education and Outreach. "Project BudBurst is designed to help both adults and children understand the changing relationship among climate, seasons and plants, while giving the participants the tools to communicate their observations to others."

"Project Budburst provides an exciting opportunity for the public, particularly children, to contribute to scientific research on the effects of global climate change on plants," adds Kayri Havens, a scientist at the Chicago Botanic Garden.

Each participant in Project BudBurst selects one or more plants to observe. The project Web site suggests more than 60 widely distributed trees and flowers, with information on each. Users can add their own choices.

Participants begin checking their plants at least a week prior to the average date of budburst--the point when the buds have opened and leaves are visible. After budburst, participants continue to observe the tree or flower for later events, such as the first leaf, first flower and, eventually, seed dispersal.

When participants submit their records online, they can view maps of these phenological events across the United States.

The science of phenology, or tracking cyclic behavior among plants and animals, has a distinguished history. In Japan and China, for example, the blossoming of cherry and peach trees is associated with ancient festivals, some of which extend back more than a thousand years. Cherry trees in Japan now bloom four days earlier than in the 1950s, according to the nation's meteorological agency.

Many species are being affected by climate change throughout the world. The Intergovernmental Panel on Climate Change warns that 20 to 30 percent of all plant and animal species that researchers study will likely be at increased risk of extinction should global temperatures rise by 2.7 to 4.5 degrees Fahrenheit this century.

Some plants respond to warmer temperatures by extending their growing seasons. Others shift their ranges toward the poles or to higher elevations.

At the same time, many insects breed and disperse based on regular cycles of sunlight rather than temperature. This can cause a mismatch between the behavior of pollinating insects, such as bees, and flowers that bloom earlier than the insects expect. Such asynchronous behavior has already been noted across many parts of the world.

Along with the partners noted above, Project BudBurst collaborators include the Plant Conservation Alliance; USA-National Phenology Network; and the Universities of Arizona; California, Santa Barbara; Wisconsin-Milwaukee; and Wisconsin-Madison.

Relevant PhysicsForums posts

Related Stories

(Phys.org)—Trees in the continental U.S. could send out new spring leaves up to 17 days earlier in the coming century than they did before global temperatures started to rise, according to a new study by Princeton University ...

The opening of buds on Douglas-fir trees each spring is the result of a complex interplay between cold and warm temperatures during the winter, scientists with the U.S. Forest Service's Pacific Northwest Research ...

Students, gardeners, retirees, and other volunteers who are taking part in a nationwide initiative, Project BudBurst, are finding hints that certain plants are blooming unusually early, perhaps as a result ...

Spring in the Rockies begins when the snowpack melts. But with the advent of global climate change, the snow is gone sooner. Research conducted on the region’s wildflowers shows some plants are blooming less because of ...

Recommended for you

Spring is here and ectotherms, or animals dependent on external sources to raise their body temperature, are becoming more active. Recent studies have shown that as the average global temperature increases, ...

The intraterrestrials, they might be called. Strange creatures live in the deep sea, but few are odder than the viruses that inhabit deep ocean methane seeps and prey on single-celled microorganisms called ...

Until now electric fences and trenches have proved to be the most effective way of protecting farms and villages from night time raids by hungry elephants. But researchers think they may have come up with ...

Researchers at the Mechanobiology Institute, National University of Singapore, have made significant advances in our understanding of cellular biology; providing evidence that the inherent 'handedness' of ...

(Phys.org)—In the complex, somewhat rarified world of interactions between various flavors of RNA, one elusive goal is to understand the precise regulatory relationships between competing endogenous RNA ...

User comments : 0

Please sign in to add a comment.
Registration is free, and takes less than a minute.
Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.